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Photoacoustic sensing instrument for tissue diagniostics
In the pursuit of enhancing clinical diagnostics, researchers at the Indian Institute of Technology Indore have unveiled a new tool—a compact and cost-effective photoacoustic (PA) sensing instrument designed for biomedical tissue diagnosis. This development improves diagnostic practices, patient care and outcomes, offering rapid and accurate insights into breast tissue characterization.
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Advancements in all-solid-state batteries by KIST-LLNL collaboration
Researchers from the Korea Institute of Science and Technology (KIST) and Lawrence Livermore National Laboratory (LLNL) have made significant progress in developing high-energy-density all-solid-state batteries, aiming for commercialization. Their latest research focuses on the design and synthesis of stable solid electrolytes, crucial for safer and more efficient lithium battery technology.
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New technology for brain cancer visualization
Researchers from Brigham and Women's Hospital and the Massachusetts Institute of Technology (MIT) have developed a groundbreaking microscopy technology known as decrowding expansion pathology (dExPath). This innovative method allows for the visualization of previously unseen details in human brain tissue, opening new avenues for the diagnosis and treatment of brain cancer.
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Automatedly measuring optical in-glass waveguides
Researchers at Fraunhofer IZM have now managed to develop a system that can automatically measure propagation losses in integrated optical waveguides, all part of the research project “Integrated Electro-Photonic Panel Systems” (EPho).
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Production of e-textiles: Vibrations lead the way
The German Institutes of Textile and Fiber Research Denkendorf (DITF) have developed a contacting process with which orientation aids - and e-textiles in general - can be produced more economically and conveniently.
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Focusing on the human – knowledge and assistance in production
Providing the best possible support for people in production, transferring their knowledge and maintaining their ability to work for as long as possible is becoming increasingly important for companies, a trend report by Fraunhofer IPK makes clear.
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New method for manufacturing tailor-made semiconductor thin films
In order to produce thin organic semiconductor films automatically and with well-defined properties, researchers – led by Leibniz IPHT in Jena, Germany – have developed a new technological approach for depositing thin films with high molecular precision.
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The new Center for Bionic Intelligence Tübingen Stuttgart
Scientists from the University of Stuttgart, the University of Tübingen, the Max Planck Institute for Intelligent Systems and the Max Planck Institute for Biological Cybernetics are conducting research on intelligent bionic systems that will aid understanding and treatment of certain diseases of the central nervous system.
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Roll-to-roll: system traverse for 2D inline process monitoring
Within the joint project KODOS (funding reference 13N14607), funded by the German Federal Ministry of Education and Research, a solution for in-line process monitoring and mapping of process parameters was developed with SURAGUS GmbH at Fraunhofer FEP.
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Vital data: the whole body on the radar
Researchers at the Fraunhofer Institute for Digital Media Technology IDMT in Oldenburg have developed a new method for collecting and analyzing vital signs from the human body by using radar.
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Integrated sensor technology: the next step in additive manufacturing
Trends such as Industry 4.0 and the Internet of Things are making the precise recording of the condition of machines and components increasingly important. To face the challenges in collecting sufficient data, the Fraunhofer Institute for Laser Technology ILT has developed a sensor infrastructure for smart industrial applications and implemented it using additive manufacturing processes.
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AI-driven tool to personalize 3D-printable models
MIT researchers developed a generative-AI-driven tool that enables the user to add custom design elements to 3D models without compromising the functionality of the fabricated objects. A designer could utilize this tool, called Style2Fab, to personalize 3D models of objects using only natural language prompts to describe their desired design.
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Artificial intelligence designs advanced materials
Scientists of the Max-Planck-Institut für Eisenforschung pioneer new machine learning model for corrosion-resistant alloy design.
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What can AI do in laser materials processing?
Automation and zero-defect production are important trends in machine construction. Artificial intelligence (AI) plays a major role in advancing both of them. Today, it can already detect deviations in process monitoring data and implement quality control in real time. In the future, AI will regulate many more processes and simplify process planning through assistance functions.
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New imaging technology for a quick look inside a human being
Physicists at the University of Würzburg have succeeded in making a new imaging technique ready for use on humans. Radioactive markers and radiation are not necessary for this.
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Sensors: when the machine reports its status
Even if the central concern of digitally integrated production or Industry 4.0 is networking industrial systems – the individual machine remains a central focus point of optimization. The reasons: Networking requires interfaces that must first be implemented on the individual machine.
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Grant to facilitate high-speed bioprinting of bones, tracheas, organs
Developing technology to quickly and efficiently bioprint human tissues at scale is the goal of a new project led by Penn State researchers. When fully developed, the technology will be the first to enable the fabrication of scalable, native tissues such as bones, tracheas and organs.
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Electrodes: 4D printing for nerve stimulation
Specific nerves may be stimulated artificially, for example to treat pain. The finer the nerves, the more difficult it is to attach the required electrodes. Researchers have now developed flexible electrodes produced with 4D printing technology. On contact with moisture, they automatically fold and wrap themselves around thin nerves.
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3D bioprinting technology to be used for removing cancer cells
KIMM develops the world’s first 3D bioprinting technology that enhances the function of NK immune cells. The new technology is expected to improve effectiveness of cancer treatment.
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Product safety: anti-counterfeiting through laser printing
A team of researchers at the Max Planck Institute of Colloids and Interfaces (MPICI) has developed a method that could make it more difficult to counterfeit products in the future. The new and patented method makes it possible to produce unique, non-copyable fluorescent patterns quickly, environmentally friendly and at low costs.
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Compact laser scanner with 90 percent less construction volume
Galvanometer scanners have been in use in laser material processing for decades. However, a team from the Fraunhofer Institute for Laser Technology ILT has now developed a new, particularly compact scanner module for applications in 3D printing, micromachining or medical technology.
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Bioprinting research makes history when it soars to the ISS
The Wake Forest Institute for Regenerative Medicine (WFIRM) will make history this month when the first bioprinted solid tissue constructs soar to the International Space Station (ISS) on board the next all private astronaut mission by commercial space leader Axiom Space.
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New sensors for healthier indoor air
People spend an average of 22 hours a day indoors, where furniture, carpets or wall paints can release harmful solvents over time. The scientists in the international doctoral programme "SENNET" aim to detect such pollutants. They want to develop reliable sensors based on special, porous materials.
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Iron oxide nanoparticles for medical applications
How to further improve the special magnetic properties of nanoparticles by microstructure design has been investigated by a team at TU Bergakademie Freiberg using analytical high-resolution transmission electron microscopy.
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DTU builds new cleanroom for microchip production
DTU is expanding its cleanroom facilities to meet the high demand for microchips from companies and researchers. The expansion will also strengthen the development of quantum computers, which are based on research and development of new chips.
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Digital remote monitoring reduces emergency hospital admissions from care homes
Health Data Research UK (HDR UK) has released findings from a study, demonstrating significant reductions in emergency hospital admissions and A&E attendances through the use of digital remote monitoring technology in care homes. The study showcases the potential of data-driven solutions to enhance healthcare outcomes for older adults.
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Research: automated series production of optics with new glass press
The Fraunhofer Institute for Production Technology IPT in Aachen has expanded its machinery with a new system for the automated molding of high-precision optical glass components.
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6G is right around the corner
The digital world is booming and has long since become part of everyday life in industry and society. More recent developments such as autonomous driving, telemedicine, but also private use require ever higher rates to transmit large amounts of data in real time. 6G should help with this: The aim is to transmit 1,000 GB/s and reduce latency to a tenth compared to 5G.
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Establishing design as integral component in research and development
In its various disciplines and manifestations, design is increasingly gaining importance in Fraunhofer's research. Supporting this trend, the three Fraunhofer Institutes IVI, IWS and IWU in Dresden, together with Technische Universität Dresden, are establishing the "DesignLab for Applied Research" on behalf of the research community.
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Intuitive machine control using speech recognition
Fraunhofer researchers at the Fraunhofer Institute for Digital Media Technology IDMT in Oldenburg have developed a speech recognition solution for use in industrial manufacturing. The system works reliably even in noisy environments and can be flexibly adapted to the user’s needs.
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New spray fights infections and antibiotic resistance
The World Health Organization (WHO) ranks antibiotic resistance as one of the top ten threats to global health. A group of researchers at Chalmers University of Technology in Sweden are now presenting a new spray that can kill even antibiotic-resistant bacteria, and that can be used for wound care and directly on implants and other medical devices.
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How optical microscopes allow detailed investigations of nanoparticles
It sounds like trying to scan a vinyl record with a hammer: Light is actually too "coarse" to image small particles on the nanometer scale. However, in their project "Supercol" – funded by the European Union – scientists want to achieve just that: The investigation of nanoparticles with light.
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Real-time bladder fullness: new technology for bladder dysfunction
Researchers at Northwestern University (USA) have developed an implant that monitors bladder fullness in real time. The battery-free, flexible device is attached to the bladder wall and transmits the data to a smartphone app.
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AI-based evolution: green hydrogen production enhances with platinum-free electrode materials
Cutting-edge AI technology is improving the field of materials science, particularly in the quest for sustainable energy solutions. Researchers at the National Institute for Materials Science (NIMS) in Japan have developed an evolutionary AI technique that accelerates the discovery of high-performance materials crucial for green hydrogen production.
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Hand prostheses: Artificial intelligence makes gripping more intuitive
A better understanding of muscle activity patterns in the forearm supports a more intuitive and natural control of artificial limbs. This requires a network of 128 sensors and artificial intelligence based techniques.
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New era of cyborganics – Prof. Ivan Minev receives ERC Consolidator Grant
Over the next five years, the ERC will provide two million euro of funding for the development of a new class of electronic components that consist almost entirely of water and could make the interface between biological tissue and machine seamless.
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Optimization of chip production through AI: Green light for the LOTSE joint project
The Chair of Databases at TUD Dresden University of Technology is now a partner in the European Regional Development Fund (ERDF) joint research and development project LOTSE - an AI project to optimize chip production in Saxony.
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Pancreas: nanoparticles for optimized cancer therapy
Researchers from Göttingen and Karlsruhe have developed a new treatment approach for pancreatic cancer. The innovative method promises to be able to treat the disease in a more targeted way and with fewer side effects in the future. The therapy is now to be optimized for clinical application as quickly as possible.
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COMPAMED 2023: Piezoceramics shorten root canal treatments
When carrying out root canal treatment procedures, dentists need to insert a file deep into the root canal to remove the inflamed tissue. The rotating file often gets jammed and must be cleaned regularly. Researchers have developed a piezoceramic stack actuator that overlays the rotating motion with a vibrating motion.
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TUM professor develops an energy-saving AI chip
Hussam Amrouch has developed an AI-ready architecture that is twice as powerful as comparable in-memory computing approaches.
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Novel nanoparticles could serve as contrast agents
Special nanoparticles could one day improve modern imaging techniques. Developed by researchers at Martin Luther University Halle-Wittenberg (MLU), the properties of these unique nanoparticles change in reaction to heat.
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The fuel economy of a microswimmer
Scientists from the department Living Matter Physics at the Max Planck Institute for Dynamics and Self-Organization (MPI-DS) developed a general theorem to calculate the minimal energy required for the propulsion of a microswimmer.
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Bidirectional control of prosthetic hands using ultrasonic sensors
Researchers at Fraunhofer are working as part of an EU research project to improve control of prosthetic hands down to individual fingers.
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Wearable sensor for continuous analysis of sweat
Continuous monitoring of sweat can reveal valuable information about human health, such as the body’s glucose levels. However, wearable sensors previously developed for this purpose have been lacking, unable to withstand the rigors or achieve the specificity needed for continuous monitoring. Now, the research team has created a novel wearable patch that may be up to the task.
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EXIST funding for bacterial magnetic nanoparticles
BioMagnetix uses bacterial magnetic nanoparticles as innovative materials for biomedical applications. The founding team aims to develop and continuously improve high-quality and highly functional magnetic nanoparticles for imaging techniques and therapeutic purposes, such as cancer treatment.
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Diagnostics: pioneering approaches for the detection of viral antigens
Scientists from the Chair of Materials Science and Nanotechnology at TU Dresden (TUD) have made considerable progress in the development of highly innovative solutions for the detection of viral pathogens in two studies they presented recently.
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Project for microelectronics resarch in Germany launched
The BMBF-funded project “Forschungslabore Mikroelektronik Deutschland (ForLab)” brings together 14 German universities active in microelectronics research. Through the ForLab project, they were able to invest in new facilities that will open up new areas of research.
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Advanced biosensors to detect tumors, viruses and bacterial diseases
Linnaeus University is partnering with industry and healthcare to develop advanced biosensors, investing SEK 35 million in a project aimed at faster and cost-effective diagnoses of aggressive lung cancer, viral, and bacterial diseases, potentially enabling self-testing at home.
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Micrometres-thin battery could power smart contact lenses
Scientists from NTU Singapore have developed a flexible battery as thin as a human cornea, which stores electricity when it is immersed in saline solution, and which could one day power smart contact lenses.
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Future chips: using magnetic effects in electrons for a hundredfold reduction in power consumption
SPIDER project: Using spinwave technology, EU consortium led by Fraunhofer IZM aims to cut computer chip power consumption by 100x. Magnon-based approach promises energy-efficient computing. Project runs till May 2026 with €3M funding.
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Nature-inspired pressure sensing technology aims to transform healthcare and surgical robots
NUS researchers have developed 'eAir', an innovative pressure sensor inspired by the lotus leaf effect. This sensor could revolutionize minimally invasive surgeries by providing tactile feedback to surgeons and improve patient experiences in monitoring intracranial pressure. Its unique design enhances precision and reliability, potentially transforming various medical applications.
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Smallest known way to guide light invented
Scientists at the University of Chicago found a glass crystal just a few atoms thick can trap and carry light - and could be used for applications.
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Noninvasive technology tests for malaria without a blood sample
Yale researchers and CytoAstra develop cytophone, a laser-ultrasound platform for noninvasive malaria detection. Funding from Gates Foundation supports prototype development and testing in Burkina Faso. Improved sensitivity offers promising diagnosis and treatment potential, bypassing emerging antigen test challenges.
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Biosensing: air monitor can detect COVID-19 variants
Scientists are looking at ways to surveil indoor environments in real time for viruses. By combining recent advances in aerosol sampling technology and an ultrasensitive biosensing technique, researchers at Washington University in St. Louis have created a real-time monitor that can detect any of the SARS-CoV-2 virus variants in a room in about 5 minutes.
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Pregnancy: intelligent patch for remote monitoring
A patch equipped with highly sensitive electronics is meant to collect and evaluate vital data. In addition, the sensors will be integrated into baby clothing in order to improve the future of medical monitoring for newborns with the highest level of data security.
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U.S. patent for portable tool to diagnose and monitor sickle cell disease
In the United States, sickle cell disease affects about 100,000 people and about 2 million Americans carry this genetic mutation. The most common and serious problems caused by sickle cell disease are anemia, pain and organ failure – stroke affects about 10 out of 100 children who have this disease. The national median life expectancy for people who have sickle cell disease can reach up to age 50.
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Micro scanners in medicine: flexible for customized applications
The potential of micro scanners in medical technology is immense. Their small size, low weight and high energy efficiency make them ideal for mobile use. More than 200 different micro scanner designs have been developed at Fraunhofer IPMS to meet customer-specific requirements.
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Rice physicist receives NSF CAREER award to advance quantum technology
Yonglong Xie, Rice University physics assistant professor, receives the NSF CAREER Award, a $888,555 grant, fueling his research on magnons, quantum entities in magnetic materials, to revolutionize quantum technology. Xie's work shapes future quantum devices and sensors.
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New hydrogel for seawater desalination and medical therapies
Researchers at Universitat Politècnica de Catalunya - BarcelonaTech (UPC) have developed a thermosensitive hydrogel with multifaceted applications, including seawater desalination using solar energy and the creation of advanced biomedical adhesives for semi-invasive therapies and medical diagnostics.
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Conductive, cotton-based fiber for smart textiles
A single strand of fiber developed at Washington State University has the flexibility of cotton and the electric conductivity of a polymer, called polyaniline. The newly developed material showed good potential for wearable e-textiles.
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Inspired by mussels: printable adhesives for tissues and bones
Researchers at the Fraunhofer IAP have been working alongside the Fraunhofer IGB and the Fraunhofer CMI to develop a tissue adhesive that can help avoid early replacement of prostheses in the future.
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Basis for innovative PFAS filter made of clay
PFAS filters available for industrial waste are usually made of activated carbon (PFAS = perfluorinated and polyfluorinated alkyl compounds). As this is comparatively expensive, researchers are looking for alternative filter materials for the so-called "eternal toxins", whose hazardous residues only degrade very slowly in the environment.
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Recycling model for the plastics industry
Prof Dr Klaus Kümmerer from Leuphana University Lüneburg and his colleague Prof Dr Hans-Josef Endres from Leibniz University Hanover want to develop a sustainable recycling model for the plastics industry.
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COMPAMED 2023: Bioactive composite supports healing of broken bones
A broken bone failing to heal represents an enormous burden for patients. Fraunhofer researchers have worked alongside partners to develop a composite material to be used in the treatment of such non-union cases. The resulting implant is designed to significantly improve treatment success rates and speed up the healing process.
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Autonomous measuring instruments systematically detect new materials
Despite highly specialized methods that can simultaneously produce a range of materials on a single sample and then measure them automatically, every minute counts when analyzing them: because days or even weeks can pass before the characterization of a sample is complete. The new algorithm can be integrated into existing measuring instruments to boost their efficiency significantly.
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Plastic production via advanced recycling lowers GHG emissions
Producing new plastic by advanced recycling of post-use plastic (PUP), instead of fossil-based production, can reduce greenhouse gas emissions (GHG) and increase the U.S. recycling rate, according to research by the U.S. Department of Energy’s (DOE) Argonne National Laboratory.
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Using deep learning to classify steel materials objectively
Researchers at the Fraunhofer IWM, in collaboration with Schaeffler Technologies AG & Co. KG, have developed a deep learning model that enables objective assessment of the grain size in steel.
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Ultrathin nanotech promises to help tackle antibiotic resistance
Researchers have invented a nano-thin superbug-slaying material that could one day be integrated into wound dressings and implants to prevent or heal bacterial infections.
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Muscles for soft robots inspired by nature
A research team from the Department of Materials Science at Kiel University (CAU) has now developed a new material based on a hydrogel that functions similarly to a muscle. The soft material can be reduced and enlarged in a controlled manner within a short time and could thus take on motion tasks in soft robotics, for example.
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New glass with supreme toughness
Researchers at the University of Bayreuth, together with partners in China and the USA, have produced an oxide glass with unprecedented toughness.
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Cancer photoimmunotherapy: novel liquid metal nanoparticles
JAIST researchers create liquid metal nanoparticles (PEG-IMIQ-LM) for cancer treatment, merging photothermal therapy and immunotherapy. Disintegration delivers immunomodulants and tracks cancer cells in real-time. Immune checkpoint inhibitor enhances cancer removal. Promising for future cancer theranostics, with clinical trials anticipated in a decade.
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Biomaterials: toolbox for the development of bioadhesives
The team of Prof. Dr. Thomas Scheibel, Chair of Biomaterials at the University of Bayreuth, has compiled a current overview of the state of research on protein-based bioadhesives.
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Digital AI system for tailoring polymers
Prof. Dr. Christopher Kuenneth together with research partners in Atlanta, USA, have now developed a digital system that promises extraordinarily high economical, technological and ecological benefits: from around 100 million theoretically possible polymers, their system can precisely select those materials that have an ideal property profile for targeted applications at unprecedented speed.
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Intelligent rubber materials
Autonomously switchable polymer materials have recently been developed by materials scientists at the University of Stuttgart and pharmacists at the University of Tübingen.
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Functional surface refinement: control of growth dynamics of finest tin layers
Nanometer-scale coatings with functional materials play an important role in many sensory, electronic and photonic applications. An international team of researchers – coordinated by Leibniz IPHT in Jena, Germany – has succeeded for the first time in observing novel growth effects of tin coatings on silicon nanometer-structured surfaces.
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NOVA project: next generation of antimicrobial coating technologies
Researchers develop and test highly efficient, environmentally friendly and stable antimicrobial (antibacterial, antiviral, antifungal) coating technologies in the NOVA project.
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Bionics: What makes cholesterol-containing surfaces so repulsive?
Living organisms use powerful physical principles to control interactions at their surfaces. Researchers at the Leibniz Institute of Polymer Research Dresden, Leipzig University and TU Dresden have now discovered why cholesterol-containing surfaces can exhibit greatly reduced attachment of proteins and bacteria.
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Materials science: fast magnetic imaging with diamond-based quantum sensor technology
Microscopic imaging of magnetic fields, enabled by quantum sensing, allows the measurement of the unique magnetic fingerprint of objects. This opens the door for fundamentally new applications in various fields such as materials testing or biomedicine. The system offers a unique compromise of sensitivity, resolution and speed.
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Sensor patch for abdominal surgery
Researchers from Empa and ETH Zurich have developed a plaster with a sensor function to ensure that wounds in the abdomen remain tightly closed after an operation.
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CircEl-Paper: Recyclable paper-based electronics
Billions of tons of electronic waste are produced in the EU every year. With a novel approach, the new EU project "CircEl-Paper" could sustainably improve the recycling process for electronics in the future.
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Tissue Engineering: TU Graz revolutionises production of biocompatible microfibres
Using a newly developed method for the efficient and cost-effective production of biocompatible microfibres, the production of autologous skin and organs can be significantly accelerated.
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Specially coated titanium reduces risk of clots on prostheses
An international research team led by the german University of Jena has now developed a promising approach to significantly reducing blood clotting on the heart valve material titanium.
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Artificial intelligence in medical technology: precision and reliability through AI
Artificial intelligence (AI) is conquering medical technology and promises more precise diagnoses, more efficient processes and greater patient safety. But what are the diverse areas of application for AI in medicine and what advantages and challenges does the technology entail?
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Advancements in microchip manufacturing: new plasma technology
Plasma scientists at the U.S. Department of Energy’s Princeton Plasma Physics Laboratory (PPPL) have made advancements in microchip manufacturing. Their latest research, highlighted in a recent peer-reviewed publication, aims to enhance production efficiency and streamline manufacturing processes. This development holds the potential to revitalize the American chip industry.
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Advancing immune cell analysis with micro-robots
A cutting-edge research from the University of Chicago's Pritzker School of Molecular Engineering and Department of Chemistry unveils a development in immune cell analysis. Scientists have engineered microscopic robots capable of binding to immune cells, offering a novel approach to studying their functions and advancing immunotherapy design.
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Computer model of the ear may help to improve cochlear implants
Professor Pavel Jungwirth and his colleagues from the Institute of Organic Chemistry and Biochemistry of the Czech Academy of Sciences and the cochlear implant company MED-EL, based in Austria, have come up with a complete computer model of the ear. It can be used to simulate hearing of mammals including humans from the outer ear all the way to the auditory nerve.
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Future-proof security architecture for healthcare communications
Germany’s telematics infrastructure (TI) aims to allow healthcare professionals to exchange patient data securely, rapidly and from anywhere. The platform for healthcare applications will soon see a new security architecture. The aim is to make it easier to exchange data between all parties involved as well as to facilitate access to specialist services.
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Materials for AI: more brainpower for hardware and software
Researchers are developing neuromorphic materials to optimize adaptive algorithms for autonomous driving and more. These materials resemble brain structure, enabling faster and more efficient algorithm responses. Supported by Volkswagen Foundation with €1 million, the team aims to apply the approach to hardware.
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AI: new method for targeted design of molecules
Engineering novel molecules and materials with specific properties can yield significant advances for industrial processes, drug discovery and optoelectronics. However, the search for novel molecules and materials is comparable to looking for a needle in a haystack, since the number of molecules in chemical space is of the unimaginable order of 10 to the power of 60.
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Engineers to advance nanomedicine manufacturing using AI
A novel combination of artificial intelligence and production techniques could change the future of nanomedicine, according to Cornell researchers using a new $3 million grant from the National Science Foundation to revolutionize how polymer nanoparticles are manufactured.
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EU project to establish AI and robotics in healthcare
The EU project TEF-Health aims to test and validate innovative artificial intelligence (AI) and robotics solutions for the healthcare sector and accelerate their path to market.
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Better hearing with optical cochlear implants
Understanding spoken words, developing normal speech - cochlear implants enable people with profound hearing impairment to gain a great deal in terms of quality of life. However, background noises are problematic, they significantly compromise the comprehension of speech of people with cochlear implants. The team led by Tobias Moser is therefore working to improve cochlear implants.
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